KR100928455B1 - Biolux-lighting apparatus - Google Patents

Abstract

PURPOSE: A biolux-lighting device is provided to reduce energy consumption by controlling the brightness of the lighting device to the reference brightness when a person stays in one place. CONSTITUTION: A biolux lighting device includes a timer(301), a sensor(302), a lamp(303), and a controller(304). The timer counts the dark adaptation time. The sensor senses the object. The controller controls the timer, the sensor and the lamp. If a sensing signal from the senor is transmitted, the controller controls the brightness of the lamp maximally. If the brightness of the lamp is at the maximum, the controller starts the counting operation of the timer. The controller reduces the brightness of the lamp corresponding to the illuminance within the dark adaptive threshold value according to the counting signal of the timer. If the brightness of the lamp reaches the reference brightness, the controller stops the counting operation of the timer.

Description

BioLux-Lighting apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a biolux lighting apparatus that can be used in various applications in offices, corridors, stairs, entrances, etc. of buildings, and more particularly, to lighting apparatuses that can significantly save energy while not feeling a change in lighting. will be.

     The current lighting device is a sensor lighting method in which a lighting device is turned on when a detection sensor detects a human movement, and the lighting device is turned off when a person is not detected. In this way, if a person is detected and moves out of the detection range, the lighting device is turned off immediately, and the user may feel fatigue and embarrassment due to a sudden change in illuminance. As a person moves, the lighting device is turned off and the lighting is rapidly darkened, and the other space in which the person stays is the lighting device is turned on, so the person who is not moving is concerned about the change in the illumination of the surrounding lighting device and distracts attention. It becomes possible.

    In addition, when a person works in the office, a sensor detects a person and keeps the lighting state. If a person stays in a certain space for a long time, it is natural that energy consumption will be high due to the continuous lighting.

    In addition, the current sensor lighting method is that the lighting device is turned on or off depending on whether the object is detected, so that the sensor is in a dark state without light before the sensor detects a person, and this causes anxiety when the person first enters such a space. In places like runners' windows and stairs, there is a risk of accidents.

   In addition, when a person is detected and moves out of the detection range and the lighting device is turned off immediately, the sensor is turned off when the sensor is out of the detection range even though it does not actually leave the space.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a biolux lighting apparatus that can significantly reduce energy while not worrying about changes in illuminance.

It is also an object of the present invention to provide a lighting device that can be maintained constant lighting even if a person is not detected.

Biolux lighting apparatus according to the present invention for achieving the above object,

A timer for counting a set dark compliance time; A sensing sensor for detecting the presence of an object (eg, a person); Adjustable brightness; A dark compliance threshold is set and includes a control unit for controlling the respective units, and the control unit causes the lamp to illuminate at a set maximum brightness when a detection signal of an object is transmitted from the detection sensor, and after reaching the maximum brightness, When the counting signal is generated from the timer, the timer controls the counting operation to lower the brightness of the lamp by the illuminance within the set dark acclimatization threshold, and when the set reference brightness is reached, the timer is no longer counted. It is characterized by maintaining the brightness.

In the biolux lighting apparatus according to the present invention for achieving the above object, when the detection signal of the object is not detected from the detection sensor, the control unit causes the timer to perform the counting operation again. The brightness of the lamp is continuously lowered with the illumination within the dark adaptation threshold, and when the minimum brightness is reached from the set reference brightness, the timer is no longer counted to maintain the set minimum brightness.

     Biolux lighting apparatus according to the present invention for achieving the above object, further sets the light compliance time to the timer, and further set the light compliance threshold to the control unit, the detection signal of the object from the sensor If so, the controller controls the timer to perform a counting operation so as to control the timer to increase the brightness of the lamp by the illuminance within the set threshold when the counting signal is generated.

Biolux lighting apparatus according to the present invention for achieving the above object is characterized in that the dark compliance time, light compliance time and dark compliance threshold, the light compliance threshold can be set variously according to the illuminance.

The biolux lighting apparatus according to the present invention for achieving the above object is characterized in that the dark compliance threshold reaching the reference brightness at the maximum brightness is set larger than the dark compliance threshold reaching the minimum brightness at the reference brightness.

Biolux lighting apparatus according to the present invention for achieving the above object is characterized in that the dark adaptation time to reach the reference brightness at the maximum brightness is set less than the dark compliance time to reach the minimum brightness at the reference brightness.

According to the present invention, when a person stays in a constant space, the energy consumption can be greatly reduced by lowering the illuminance to the set reference brightness of the lighting device, while preventing the person from feeling a change in the illuminance.

In addition, while controlling the illuminance, the person under the illumination is not aware of the change in the illuminance, and the effect is not to be bothered by the change in the illuminance of the ambient lighting device.

In addition, there is an effect that the constant lighting is kept to a minimum so that anxiety is not created when a person moves through a certain space.

1 is a graph showing the relationship between illuminance and energy. As shown in FIG. 1, the intensity of illumination is rapidly increased in proportion to the rapid increase in energy consumption, but when the illuminance L _A is above a certain level, the increase in the intensity of illumination is slower than the increase in energy.

In other words, the energy consumption is high above a certain illuminance, but the illuminance does not increase in proportion to it.

2 is a graph showing the relationship between stimulation and senses. As shown in FIG. 2, the human body constantly reacts to an external stimulus, and there are separate sensory organs that sense it according to the type of external stimulus that affects the human body. However, the sensation cannot feel insensitive indefinitely, and every sensation has a minimum stimulus value for a response, which in biology is called a threshold value. In short, when a stimulus within the threshold is given to the sensory organ, the person has no knowledge of the stimulus.

The sense associated with illuminance to be used in the present invention is vision. The eyes are the senses, so the organs of the senses that make vision a suitable stimulus are eyes. If a change in illuminance occurs, a change of the sensory organs occurs to become accustomed to the changed illuminance. If the illuminance darkens, the iris opens larger in the eye and sensitivity is controlled in the retinal cells. In other words, the threshold of visual cells is regulated. The sensitivity of the cell is controlled by a substance called rhodopsin, which is a substance that breaks down by light to generate energy, and the energy generated at that time makes the human sense of sight.

If the illuminance is lowered, rhodopsin is synthesized and accumulated in rod cells among the cells, and when it is sufficiently synthesized, the human eye becomes accustomed to the dark. The phenomenon that the eyes ripen in the dark is called dark adaptation, and the phenomenon that the eye adapts to the bright situation is called Myeongsun. Even if the eye cells perceive some degree of illuminance change due to an appropriate illuminance change, if such mechanisms act quickly to adapt to the altered illuminance, then the human perception at the sensory level at the cellular level (eg You will be able to adapt your body to changes in illuminance (without annoying nerves).

According to Weber-Fechner's law, which studied the relationship of the sensory response to stimuli, the amount of sensation is proportional to the logarithmic physical quantity of the stimulus that causes the sensation. In other words, the stronger the stimulus, the more dull the sensation. The amount of stimulation that the human body starts to respond to is proportional to the initial stimulus, and the response is weaker as the intensity of the stimulus increases. In other words, the higher the illuminance, the larger the threshold, the lower the illuminance, the lower the threshold, and the lower the illuminance, the more time is required to acclimate, and the higher the illuminance, the smaller the time required for compliance. This principle makes it possible to predict that the intensity of the reaction will be weak in the bright state, so that more illumination can be changed, and vice versa if the basic state is dark.

3 is a view of a biolux lighting apparatus according to the present invention. As shown in Fig. 3, the biolux lighting apparatus according to the present invention includes a timer 301 for counting the dark adaptation time; A detection sensor 302 for detecting an object; Illumination 303 is adjustable brightness; And a controller 304 for controlling the timer, the detection sensor, and the lamp.

The timer 301 counts the set dark compliance time. Since the dark adaptation time depends on the illuminance, the dark adaptation time is set differently according to the illuminance. The biolux lighting apparatus sets the illuminance of the maximum brightness, the reference brightness and the minimum brightness, and the reference brightness is determined in consideration of the energy-illuminance relationship in which the increase in illuminance is gentle even if the energy is increased as shown in FIG. 1. Since the reference brightness is set to the brightness which considers energy consumption and there is no big difference in the maximum brightness and illuminance, the dark adaptation time at which the maximum brightness is reached at the maximum brightness is set to be much shorter than the dark adaptation time at which the minimum brightness is reached at the reference brightness. . When the illuminance is high, the setting is made in this way by taking advantage of the low compliance time.

The detection sensor 302 detects an object and transmits a detection signal to the controller. The detection sensor may adopt a motion sensor to detect the movement of the object, or may be a sensor that detects the presence of the object regardless of the movement.

The lamp 303 is capable of adjusting the brightness, the brightness is adjusted under the control of the controller. The lighting is preferably to be able to adjust the brightness by using an LED lamp, it may be configured to adjust the brightness by switching a plurality of any one of the conventional lamps such as incandescent lamp, fluorescent lamp, halogen lamp.

The control unit 304 is set to the dark compliance threshold, when the detection signal of the object is transmitted from the detection sensor so that the lamp illuminates at the set maximum brightness, and after reaching the maximum brightness, the timer to counting operation When the counting signal is generated from the timer, the brightness of the lamp is lowered by the illuminance within the set dark compliance threshold, and when the set reference brightness is reached, the timer is no longer counted to maintain the set reference brightness.

When a person moves and the sensing signal of the object is not detected from the sensing sensor, the control unit causes the timer to count again, and continuously adjusts the brightness of the lamp with the illumination within the set dark compliance threshold whenever a counting signal occurs. When the set minimum brightness is reached and the set minimum brightness is reached, the timer is no longer operated so that the minimum brightness is maintained.

In this case, the illuminance within the threshold is a change in the illuminance of a degree that a person does not feel a change, and the threshold which reaches the reference brightness at the maximum brightness is set to be larger than the threshold which reaches the minimum brightness at the reference brightness. In the bright state, the degree of response of the person will be weak, so even if the amount of illumination changes more, the person does not feel. Since the illuminance in the process of reaching the reference brightness at the minimum brightness is lower than the illuminance in the process of reaching the reference brightness at the maximum brightness, the threshold value is set to a smaller value.

In addition, the dark compliance threshold and the dark compliance time may be set in various ways according to how the illumination values of the maximum brightness, the reference brightness and the minimum brightness are set.

According to this control, while a person stays in a certain space, the energy is lowered to the extent that a person does not feel it for energy saving, and the illumination is adjusted to a reference brightness which is the most energy efficient, so that a person does not feel a change in the illumination level, Efficiency is achieved.

In addition, when a person moves and no detection signal is detected by a detection sensor, a plurality of biolux lighting devices are arranged in a spacious office-like space by continuously lowering the brightness to reach a minimum brightness by illuminance within a dark compliance threshold. In this case, even if a person in the adjacent position leaves the seat, the brightness of the lighting device in the area is gradually lowered so that the person staying in another seat can work comfortably without feeling embarrassed by the momentary change of the illumination of the surrounding lighting device. do.

In addition, even when there are no people, the minimum brightness is maintained so that the anxiety that a person feels because the space is dark when he first enters the space can be solved.

On the other hand, when a person enters a certain space, additionally set the command compliance time to the timer, and additionally set the command compliance threshold to the control unit, if the detection signal of the object is transmitted from the detection sensor the control unit When the counting signal is generated from the timer, the timer may be controlled to perform a counting operation to increase the brightness of the lamp by the illumination within the set threshold.

 Basically, the minimum lighting is always maintained, so when someone enters a space, the brightness is gradually increased rather than suddenly turned on, so if multiple biolux lighting devices are placed in a spacious office-like space, even if a person enters a space, As the brightness of the lighting device gradually increases, the momentary change in the illumination of the surrounding lighting device allows a person who stays in another place to work comfortably without feeling embarrassed. In addition, even from the point of view of the person who enters a certain space, if the illuminance gradually brightens rather than suddenly brightens, the eyes can feel more comfortable.

1 is a graph showing the relationship between illuminance and energy.

2 is a graph showing the relationship between stimulation and sensory height.

3 is a block diagram of a biolux lighting apparatus according to the present invention.

<Description of the code | symbol about the main structure of drawing>

     301: timer 302: detection sensor

     303: brightness adjustable brightness 304: control unit

Claims (6)

In the biolux lighting device, A timer for counting dark compliance times; A detection sensor for detecting an object; Adjustable brightness;  A dark compliance threshold is set, and includes a control unit for controlling the timer, the detection sensor, and the lamp, When the detection signal of the object is transmitted from the detection sensor, the control unit is configured to illuminate the lamp at the set maximum brightness, and after reaching the maximum brightness, the timer controls the counting operation whenever a counting signal is generated from the timer. And lowering the brightness of the lamp by the illuminance within the set dark adaptation threshold, and controlling the timer to no longer count when the set reference brightness is reached to maintain the set reference brightness.       The method of claim 1, wherein when the detection signal of the object is not detected from the detection sensor, the controller performs the counting operation again to adjust the brightness of the lamp with the illuminance within the dark adaptation threshold set whenever a counting signal occurs. And continuously reaching the set minimum brightness at the set reference brightness so that the timer does not count anymore to maintain the set minimum brightness.      The apparatus of claim 1, wherein the controller further sets a bright compliance time to the timer, additionally sets a bright compliance threshold to the controller, and when the sensing signal of the object is transmitted from the sensor, And controlling the timer to perform a counting operation to increase the brightness of the lamp by the illumination within the predetermined threshold when the counting signal is generated from the timer.     The biolux lighting apparatus of claim 2, wherein the dark compliance time and the dark compliance threshold may be variously set according to the illuminance of the maximum brightness, the reference brightness, and the minimum brightness.      The biolux illuminating device according to claim 1 or 2, wherein the dark compliance threshold which reaches the reference brightness at the maximum brightness is set to be larger than the dark compliance threshold which reaches the minimum brightness at the reference brightness.     The biolux lighting apparatus according to claim 1 or 2, wherein the dark acclimation time for reaching the reference brightness at the maximum brightness is set less than the dark acclimatization time for reaching the minimum brightness at the reference brightness.

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